This lesson investigates the correlation between the rate of cellular respiration and metabolic rate of Weddell seal pups. Students will collect data of their personal oxygen consumption rate at rest and during exercise, and evaluate how collecting oxygen data can be used to calculate metabolic rate. Students will comprehend that heat is a product of the reaction of cellular
This is a STEM-based lesson that can be taught in class or online. Students will analyze Weddell seal pup growth data, collected by the Growing Up on Ice, B-030, research team. To use this lesson virtually, include the data cards and have students either construct graphs and upload an image of their graph, or construct a graph and share
This lesson investigates the effects of different insulators (fur and blubber) on maintaining the body temperature of polar animals. Water balloons filled with warm water simulate the marine mammal. The blubber insulator will be simulated by covering the balloon in vegetable shortening. The fur insulator will be simulated by placing another balloon over the “marine mammal” and adding an
This investigation allows students to explore the geography of Antarctica and become an active member of the citizen science project, PenguinWatch.
Objectives
Students will:
* Examine maps of the World, South Polar Regions and Antarctica and interpret geographic location influence on climates
* Develop map skills by learning how to use longitude and latitude coordinates to locate 6 research
This lesson focuses on the diffusion of gas molecules across the cuticle membrane of sea spider legs and the role body size plays in the ability of sea spiders to uptake gases. Students construct model sea spider legs of varying diameters and use them to investigate the relationship between surface area-to-volume ratios and diffusion.
We know that we have lots of microorganisms growing where we live, but can microorganisms like bacteria also live in the harsh, cold, dry climate of Antarctica? Part of our research project in Antarctica is looking at the microorganisms that live in the Taylor Glacier. We are taking dirty ice (ice with lots of dirt/sediment in it) and
For this experiment, we are going to melt dirty ice (ice with lots of sediment/dirt in it) and clean ice (ice without sediment) from the Taylor Glacier. After we melt the ice, we are going to test the melt water for pH and conductivity, and then determine how much salt is actually in our ice samples. There are